CN114888981B - Precise cutting device with folding structure for gypsum board and method thereof - Google Patents

Abstract

The precise splitting device with the folding structure for the gypsum board and the method thereof belong to the technical field of gypsum board processing, and aim to solve the problems that the splitting device of the existing gypsum board is only suitable for single mass production, the gypsum boards with the same specification are difficult to adapt to actual use scenes, the existing cutting assembly is mostly split by repeated pressing, and the process of recovering a cutter is not utilized; according to the invention, one-way sliding of the whole cutting assembly can be realized while one-way sliding of the fixing block is realized by adjusting one-hundred-eighty degrees of rotation of the turntable, and the next gypsum board workpiece can be operated at the moment; the folding storage device can store the whole device to the greatest extent, reduces the storage volume of the whole device, is convenient to transport and carry, does not need a power source in the folding storage process, can be directly placed in a working scene through the positioning box frame, directly performs cutting processing according to the actual requirements of the site on gypsum boards, and reduces the time for information transmission and workpiece transferring.

Description

Precise cutting device with folding structure for gypsum board and method thereof

Technical Field

The invention relates to the technical field of gypsum board processing, in particular to a precise cutting device with a folding structure for a gypsum board and a method thereof.

Background

The gypsum board is a material made of building gypsum as a main raw material, is a building material with light weight, higher strength, thinner thickness, convenient processing and better performances of sound insulation, heat insulation, fire prevention and the like, is one of the novel light boards which are currently developed in an important way, and is widely used for inner partition walls, wall cladding boards, ceilings, sound absorbing boards, ground base boards, various decorative boards and the like of various buildings such as houses, office buildings, shops, hotels, industrial plants and the like, and is used indoors and is not suitable for being installed in bathrooms or kitchens.

The application scene of gypsum board is complicated various, and then higher to the processing demand of gypsum board, but the segmentation device of current gypsum board only is suitable for single mass production, and the gypsum board of the same specification is difficult to adapt to actual service scene, and present cutting assembly is mostly through pressing repeatedly to carry out the segmentation, the process that the cutter was retrieved is not utilized, required gypsum board's quantity is limited in some scenes, the actual processing demand to the gypsum board is complicated, but because of current segmentation device carries inconvenience, it locates the place beyond the working scene, and then consume a large amount of information transmission and the time that the work piece was transported, work efficiency is lower.

In view of the above problems, an improvement is made to the existing device, and a precision cutting device with a folding structure for gypsum boards and a method thereof are provided.

Disclosure of Invention

The invention aims to provide a precise cutting device with a folding structure for a gypsum board and a method thereof, which solve the problems that the application scene of the gypsum board in the background technology is complex and various, the processing requirement on the gypsum board is higher, the existing cutting device for the gypsum board is only suitable for single mass production, the gypsum board with the same specification is difficult to adapt to the actual use scene, the existing cutting assembly is mostly used for cutting through repeated pressing, the process of recovering a cutter is not utilized, the quantity of the gypsum boards required in some scenes is limited, the actual processing requirement on the gypsum board is complex, the existing cutting device is inconvenient to carry, is arranged at a place outside a working scene, and further consumes a large amount of time for information transmission and workpiece transfer, and the working efficiency is low.

In order to achieve the above purpose, the present invention provides the following technical solutions: the precise splitting device comprises a positioning box frame and a bearing base plate arranged on one side of the positioning box frame, wherein a splitting mechanism is arranged on the upper surface of the bearing base plate, folding combined rods are arranged on two sides of the positioning box frame, the positioning box frame is connected with the bearing base plate through the folding combined rods, each folding combined rod comprises a traction combined pull rod connected with two side surfaces of the positioning box frame and a manual adjusting piece arranged at the upper end of the traction combined pull rod, one side of each manual adjusting piece is provided with a connecting handle rod, one end of each connecting handle rod is connected with two side ends of a side elevation of the positioning box frame, the other end of each connecting handle rod is provided with a limiting clamp sliding block, each connecting handle rod is connected with the bearing base plate through the corresponding limiting clamp sliding block, each bearing base plate comprises a base plate body and adjusting rollers arranged on one end of the base plate body, each adjusting roller is provided with two groups, two groups of adjusting rollers are arranged at two corners of the base plate body, the tail ends of the upper surface of each base plate body are provided with limiting stop bars, two side stop blocks are arranged on two side surfaces of the base plate body, the two side surfaces of each base plate body are provided with an adjusting sliding groove, the middle part in each adjusting groove is provided with a positioning sleeve shaft, one side of each connecting handle rod is connected with two arc-shaped sliding grooves, one side face of each connecting handle rod is connected with one side surface of the corresponding arc-shaped base plate is provided with one arc-shaped bearing base plate, and the upper surface of each arc-shaped base plate is provided with an arc-shaped bearing base plate;

the cutting mechanism comprises a cutting combination frame and a first side handle rod arranged at one end of the cutting combination frame, a second side handle rod is arranged at the other end of the cutting combination frame, a connecting guide block is arranged at one end of the first side handle rod, a sliding open groove is formed between one end of the second side handle rod and the cutting combination frame, the other end of the second side handle rod is connected with the driving swivel mount, the cutting combination frame comprises a U-shaped connection frame and connecting round handle blocks arranged at two ends of the U-shaped connection frame, two groups of connecting round handle blocks are provided with sleeve connection rotating rollers, two groups of sleeve connection rotating rollers are arranged between the two groups of U-shaped connection frames, a traction conveyor belt is sleeved on the outer surfaces of the sleeve connection long plates and the two groups of sleeve connection rotating rollers, a cutting assembly is arranged on the upper surface of the two groups of U-shaped connection frames, a reciprocating sliding assembly is arranged on the inner side of the traction conveyor belt, and a driving rotating shaft is arranged in the center of the lower surface of the sleeve connection long plates;

the cutting assembly comprises U-shaped butt joint handle rods arranged on the upper surfaces of two groups of U-shaped connecting frames and butt joint plates arranged on the inner sides of the U-shaped butt joint handle rods, rotation adjusting pieces are arranged on the side surfaces of the butt joint plates, connecting double rods are arranged on the surfaces of the rotation adjusting pieces, butt joint handle discs are arranged at one ends of the connecting double rods, pressure bearing rods are arranged in the centers of the connecting double rods, driving circular cutters are arranged on the inner sides of the butt joint handle discs, connecting plane sleeve blocks are sleeved on the surfaces of the pressure bearing rods, connecting threaded rods are arranged on the upper surfaces of the connecting plane sleeve blocks, connecting nuts are sleeved on the surfaces of the connecting threaded rods, two groups of connecting nuts are arranged on the surfaces of the butt joint plates, reserved long grooves are formed in the surfaces of the connecting threaded rods, the connecting threaded rods are connected with the reserved long grooves, and the two groups of connecting nuts are arranged on the upper surfaces and lower surfaces of the butt joint plates.

Further, the reciprocating sliding assembly comprises an adjusting rotary table and a butt joint rotary rod arranged on the side surface of the adjusting rotary table, one end of the driving rotary shaft is connected with the center of the adjusting rotary table, a first rotary table is installed at one end of the butt joint rotary rod, and a second rotary table is arranged on the lower surface of the first rotary table.

Further, the first movable shaft lever is installed at the centers of the first adapter plate and the second adapter plate, the traction rod is arranged on the side surface of the second adapter plate, the third adapter plate is installed at one end of the traction rod, the fixing block is arranged at the lower end of the third adapter plate, the second movable shaft lever is installed at the center of the third adapter plate, the third adapter plate is connected with the upper surface of the fixing block through the second movable shaft lever, and the fixing block is connected with the inner side surface of the traction conveyor belt.

Further, the traction combined pull rod comprises a force application pull rod and third movable shaft rods arranged at two ends of the force application pull rod, two groups of the third movable shaft rods are arranged on the third movable shaft rods, a connecting column block is installed at one end of the force application pull rod through one group of the third movable shaft rods, the connecting column block is connected with the positioning sleeve shaft, and a force application swing rod is arranged at the other end of the force application pull rod through the other group of the third movable shaft rods.

Further, a connecting side disc is arranged on one side of one end of the force application swing rod, a connecting tooth surface is arranged on the side surface of the connecting side disc, a connecting shaft rod is arranged in the center of the connecting side disc, and the connecting side disc is connected with the side surface of the positioning box frame through the connecting shaft rod.

Further, the manual adjusting piece comprises a U-shaped profile frame arranged on the side surface of the positioning box frame and a separation block arranged at the middle end of the inner side of the U-shaped profile frame, one side of the separation block is provided with a cover plate box, and the other side of the separation block is provided with an installation open groove.

Further, a manual rotary table is installed on one side of the cover plate box, and a handle is installed on the side end of the surface of the manual rotary table.

Further, an inner rotating rod is arranged on the inner side of the U-shaped profile frame, a connecting screw rod is arranged on the surface of the inner rotating rod, the connecting screw rod is arranged on the inner side of the installation open groove, and the connecting screw rod is meshed and connected with a connecting tooth surface.

Further, the connection plunger is installed at the center of manual carousel, and the inside of cover plate box is provided with first umbrella tooth, and the connection plunger passes the cover plate box and is connected with the center of first umbrella tooth, and the surface mounting of interior bull stick has the second umbrella tooth, and the second umbrella tooth sets up the inboard at the cover plate box, and first umbrella tooth is connected with the second umbrella tooth meshing.

The invention provides another technical scheme that: embodiments of a precision cutting apparatus for gypsum board having a folded structure are provided, comprising the steps of:

s1: the initial state of the cutting assembly is at the most side end of the U-shaped connecting frame, the gypsum board to be processed is placed on the surface of the bearing backing plate along the lower end of the cutting mechanism, and the height of the connecting threaded rod is adjusted through two groups of connecting nuts, so that the driving circular knife swings with the rotating adjusting piece as the axis to adjust the cutting angle;

s2: the fixing block is fixedly connected with the side surface of the traction conveyor belt, the fixing block can keep translation under the driving action of the traction rod, the traction conveyor belt rolls along the bearing sleeve long plate and the two sets of sleeve rotating rollers, the cutting assembly on the upper surface of the traction conveyor belt also slides unidirectionally, meanwhile, the driving circular knife is started to drive the circular knife to transversely cut the gypsum board to be processed, the unidirectional sliding of the fixing block is realized, meanwhile, the unidirectional sliding of the whole cutting assembly can be realized, at the moment, the next gypsum board workpiece can be operated, the adjusting turntable is controlled to rotate unidirectionally for one hundred eighty degrees again, and the whole cutting assembly slides reversely;

s3: according to the actual processing requirement of the gypsum board, starting a driving swivel base, enabling the whole splitting mechanism to swing by taking the driving swivel base as an axle center, limiting the other end of the whole splitting mechanism through sliding connection of a connecting guide block and an arc chute, adjusting the trend of the driving circular knife, and correspondingly adjusting the beveling angle of the driving circular knife by controlling the rotating angle of the driving swivel base;

s4: when the cutting work of the device is completed, a worker can manually shake the manual rotary table to enable the engagement plunger to drive the first umbrella tooth to be in a rotary state, the whole inner rotary rod is in a rotary state, the connection screw rod rotates along with the rotary state, the engagement side disc is in a rotary state, the force application swinging rod is fixedly connected with the engagement side disc, the force application swinging rod rotates along with the fixed connection, and the force application swinging rod pulls the force application pull rod after the force application swinging rod;

s5: the whole bearing backing plate is moved backwards by taking the positioning sleeve shaft as a stress point through the adjusting roller, the whole bearing backing plate is gradually and vertically folded to lean against the positioning box frame, and the two groups of folding combined rods are respectively arranged on two sides of the positioning box frame, so that all implementation steps are completed.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the precise splitting device with the folding structure for the gypsum board and the method thereof, the initial state of the cutting assembly is at the most side end of the U-shaped connecting frame, the gypsum board to be processed is placed on the surface of the bearing backing plate along the lower end of the splitting mechanism, the tail end of the gypsum board is limited by the limiting barrier, the height of the connecting threaded rod is adjusted through the two groups of connecting nuts, the displacement of the connecting threaded rod can be adapted through the reserved long groove, the driving circular knife swings around the rotating adjusting piece as the axis, the cutting angle is adjusted, the driving rotating shaft is started, the abutting rotating rod drives the first rotating disc to swing around the adjusting rotating disc along with the rotation of the adjusting rotating disc, the fixing block is fixedly connected with the side surface of the traction conveyor belt under the driving action of the traction rod, the traction conveyor belt rolls along the bearing long plate and the two groups of the sleeve rotating rollers, the cutting assembly on the upper surface of the traction conveyor belt is also in one-way sliding, meanwhile, the driving circular knife is started, the gypsum board to be processed transversely, the whole position of the driving circular knife is enabled to swing around the rotating adjusting piece, the rotating disc is opposite to the rotating adjusting piece, the rotating disc can realize the one-way sliding operation by one hundred percent of the adjusting piece, the cutting assembly can realize the one-way operation can be realized, and the two-way operation can be realized, and the work piece can be cut by one-way can be realized, and the work piece can be cut more than reversely and can be cut by one more than the work by the adjusting assembly, and the opposite, and the work piece can be cut by one and the opposite can be cut by one and the work can be cut.

2. According to the precise cutting device with the folding structure for the gypsum board and the method thereof, provided by the invention, one side end of the upper surface of the backing plate body is provided with the driving swivel seat, the other side end of the upper surface of the backing plate body is provided with the arc-shaped bearing plate, the driving swivel seat is started according to the actual processing requirement of the gypsum board, the whole cutting mechanism swings with the driving swivel seat as an axis, the other end of the whole cutting mechanism is limited through the sliding connection of the connecting guide block and the arc-shaped chute, the trend of the driving circular knife is adjusted, the rotation angle of the driving swivel seat is controlled, the beveling angle of the driving circular knife is correspondingly adjusted, and the versatility of the device for cutting the gypsum board is improved.

3. According to the precise cutting device with the folding structure and the method thereof for the gypsum board, after the cutting work of the device is completed, a worker can manually rotate the manual rotary table, so that the joint plunger drives the first bevel gear to be in a rotating state, the first bevel gear is meshed with the second bevel gear to drive the whole inner rotary rod to be in a rotating state, the connecting screw rod rotates along with the rotating state, the connecting screw rod is meshed with the connecting tooth surface to enable the connecting side disc to be in a rotating state, the force application swinging rod is fixedly connected with the connecting side disc, the force application swinging rod rotates along with the rotating state, the force application swinging rod pulls the force application pull rod backwards, the whole bearing backing plate moves backwards by taking the positioning sleeve shaft as a stress point through the adjusting roller, the whole bearing backing plate is enabled to be gradually and vertically folded to lean against the positioning box frame through the sliding limit of the limiting clamp sliding block, the two groups of folding combined rods are respectively arranged on two sides of the positioning box frame, the whole bearing backing plate can be stored in the largest, the whole device is reduced in storage volume, the whole device is convenient to transport and carry, a power source is not needed in the folding storage process, the positioning box frame can be directly placed in a working scene, the actual requirements of the cutting gypsum board can be directly carried out according to the actual requirements on site, the cutting work efficiency is reduced, and the work efficiency is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of a precision cutting apparatus with a folding structure for gypsum board according to the present invention;

FIG. 2 is a schematic view of a folding assembly bar of the precision cutting apparatus with a folding structure for gypsum boards of the present invention;

FIG. 3 is a schematic view of a precision cutting apparatus support mat with a folding structure for gypsum board according to the present invention;

FIG. 4 is a schematic view of the splitting mechanism of the precision splitting apparatus with a folding structure for gypsum board of the present invention;

FIG. 5 is a schematic perspective view of a precise cutting device cutting assembly with a folding structure for gypsum boards according to the present invention;

FIG. 6 is a schematic view showing the internal planar structure of a cutting assembly of the precision cutting apparatus for gypsum boards of the present invention having a folding structure;

FIG. 7 is a schematic view of the cutting assembly of the precision cutting apparatus with a folding structure for gypsum board of the present invention;

FIG. 8 is a schematic view of a reciprocating slide assembly of the precision cutting apparatus with a folding structure for gypsum board of the present invention;

FIG. 9 is a schematic drawing of a pull-combined tie rod of the precision splitting apparatus of the present invention with a folded configuration for gypsum board;

FIG. 10 is a schematic view of the manual adjustment of the precision cutting apparatus with a folding structure for gypsum board of the present invention;

fig. 11 is a schematic view showing an internal plan structure of a cover plate case of a precision slicing device having a folding structure for gypsum board according to the present invention.

In the figure: 1. positioning a box frame; 2. folding the combined rod; 21. traction combined pull rod; 211. a force application pull rod; 212. a third movable shaft; 213. connecting the column blocks; 214. the force application swing rod; 215. a connecting side plate; 216. a connecting shaft lever; 217. a connecting tooth surface; 22. a manual adjustment; 221. a U-shaped profile frame; 222. a separation block; 223. a cover plate box; 224. installing an open groove; 225. a manual turntable; 2251. connecting the inserted columns; 2252. a first bevel gear; 226. a handle; 227. an inner rotating rod; 228. connecting a screw rod; 229. a second bevel gear; 23. a connecting handle rod; 24. a limit clamp sliding block; 3. supporting the backing plate; 31. a backing plate body; 32. adjusting the roller; 33. a limit stop bar; 34. a side stopper; 35. adjusting the chute; 36. positioning a sleeve shaft; 37. driving a swivel base; 38. an arc-shaped receiving plate; 39. an arc chute; 4. a splitting mechanism; 41. cutting the combined frame; 411. a U-shaped connecting frame; 412. connecting a round handle block; 413. sleeving the rotating roller; 414. traction conveyor belt; 415. a cutting assembly; 4151. u-shaped butt joint handle; 4152. an abutting plate; 41521. reserving a long groove; 4153. rotating the adjusting member; 4154. connecting the double rods; 4155. a butt joint handle disc; 4156. a pressure-bearing rod; 41561. connecting the plane sleeve blocks; 41562. connecting a threaded rod; 41563. a coupling nut; 4157. driving a circular knife; 416. a reciprocating sliding assembly; 4161. adjusting a turntable; 4162. butting a rotating rod; 4163. a first transfer plate; 4164. a second transfer plate; 4165. a traction rod; 4166. a third switching disc; 4167. a fixing block; 4168. a first movable shaft; 4169. a second movable shaft; 417. a long plate of the sleeve is received; 418. driving the rotating shaft; 42. a first side handle bar; 43. a second side handle bar; 44. a connecting guide block; 45. sliding open groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the complex variety of application scenario of gypsum board, and then the processing demand to the gypsum board is higher, and current cutting assembly is mostly through pressing repeatedly to cut, and the technical problem that the process of cutter piece recovery was not utilized, as shown in fig. 1-7, provides following preferred technical scheme:

the utility model provides a precision cutting device for gypsum board that has folding structure, including positioning box 1 and set up the bearing backing plate 3 in positioning box 1 one side, the upper surface of bearing backing plate 3 is provided with segmentation mechanism 4, folding combined rod 2 is all installed to positioning box 1's both sides, positioning box 1 is connected with bearing backing plate 3 through folding combined rod 2, folding combined rod 2 includes the traction combined pull rod 21 that is connected with positioning box 1 both sides surface and sets up the manual regulating part 22 in traction combined pull rod 21 upper end, link up handle bar 23 is installed to one side of manual regulating part 22, link up handle bar 23's one end and positioning box 1 side facade's both sides end are connected, the other end of link up handle bar 23 is provided with spacing clamp slider 24, link up handle bar 23 is connected with bearing backing plate 3 through spacing clamp slider 24, bearing backing plate 3 includes backing plate body 31 and installs the regulating roller 32 in backing plate body 31 one end, regulating roller 32 is provided with two sets of regulating roller 32, the end of two sets of regulating roller 32 sets are provided with spacing blend stop 33, the end of backing plate body 31 upper surface is provided with spacing blend stop 33, spacing blend stop bar 33's both sides are provided with the regulation sleeve 35 through setting up the two side 35 and link up the side setting up slider 35, link up the center chute 35.

The splitting mechanism 4 is arranged between the driving swivel mount 37 and the arc-shaped receiving plate 38, the splitting mechanism 4 comprises a cutting combined frame 41 and a first side handle rod 42 arranged at one end of the cutting combined frame 41, a second side handle rod 43 is arranged at the other end of the cutting combined frame 41, a connecting guide block 44 is arranged at one end of the first side handle rod 42, a sliding open groove 45 is formed between one end of the second side handle rod 43 and the cutting combined frame 41, the other end of the second side handle rod 43 is connected with the driving swivel mount 37, the cutting combined frame 41 comprises a U-shaped connecting frame 411 and connecting round handle blocks 412 arranged at two ends of the U-shaped connecting frame 411, two groups of connecting round handle blocks 412 are provided with two groups, a sleeve connecting rotating roller 413 is arranged between the two groups of connecting round handle blocks 412, a long bearing sleeve plate 417 is arranged between the two groups of U-shaped connecting frames 411, a traction conveyor belt 414 is sleeved on the outer surface of the long bearing sleeve plate 417 and the two groups of sleeve connecting rotating roller 413, a cutting assembly is arranged on the upper surface of the two groups of U-shaped connecting frame 411, a reciprocating sliding assembly 416 is arranged on the inner side of the traction conveyor belt 414, and a driving rotary shaft 417 is arranged on the inner side of the driving assembly 418.

The reciprocating sliding assembly 416 includes an adjustment dial 4161 and a docking rotary rod 4162 provided at a side surface of the adjustment dial 4161, one end of the driving rotary shaft 418 is connected with a center of the adjustment dial 4161, a first transfer plate 4163 is installed at one end of the docking rotary rod 4162, a second transfer plate 4164 is provided at a lower surface of the first transfer plate 4163, a first movable shaft 4168 is installed at centers of the first transfer plate 4163 and the second transfer plate 4164, a traction rod 4165 is provided at a side surface of the second transfer plate 4164, a third transfer plate 4166 is installed at one end of the traction rod 4165, a fixing block 4167 is provided at a lower end of the third transfer plate 4166, a second movable shaft 4169 is installed at a center of the third transfer plate 4166, the third transfer plate 4166 is connected with an upper surface of the fixing block 4167 through the second movable shaft 4169, and the fixing block 4167 is connected with an inner side surface of the traction belt 414.

Specifically, the initial state of the cutting assembly 415 is at the most lateral end of the U-shaped connecting frame 411, the gypsum board to be processed is placed on the surface of the bearing backing plate 3 along the lower end of the splitting mechanism 4, the limiting barrier 33 limits the tail end of the gypsum board, the height of the connecting threaded rod 41562 is adjusted through two groups of connecting nuts 41563, the displacement of the connecting threaded rod 41562 can be adapted through the reserved long groove 41521, the driving circular knife 4157 swings with the rotating adjusting piece 4153 as the axis, the cutting angle is adjusted, the driving rotating shaft 418 is started, the abutting rotating rod 4162 drives the first rotating disc 4163 to swing with the adjusting rotating disc 4161 as the axis along with the rotation of the adjusting rotating disc 4161, the fixedly connected blocks 4167 are fixedly connected with the side surface of the traction conveyor 414, the traction conveyor 414 can keep translating along the bearing sleeve long plate 417 and the two groups of the connecting rotating rollers 413, the cutting assembly 415 on the upper surface of the traction conveyor 414 can slide in a unidirectional mode, meanwhile, the driving circular knife 4157 is started to swing with the rotating adjusting piece 4153 as the axis, the cutting assembly can be adjusted in a unidirectional mode due to the fact that the position of the opposite rotating disc 4161 is not in a reciprocating mode, the whole is not in a sliding mode, the whole work piece can be cut, and the whole work piece can be cut by the opposite to the opposite direction, and the whole work piece can be cut by the opposite to the cutting assembly is cut by the opposite to the position of the rotating disc.

In order to solve the technical problem that the existing gypsum board cutting device is only suitable for single mass production, the gypsum boards with the same specification are difficult to adapt to actual use scenes, as shown in fig. 3-7, the following preferred technical scheme is provided:

the one side end of backing plate body 31 upper surface is provided with drive swivel mount 37, the opposite side end of backing plate body 31 upper surface is provided with arc and holds board 38, arc and hold the surface of board 38 and offer arc spout 39, cutting assembly 415 is including setting up the U-shaped butt joint handle 4151 at two sets of U-shaped linking frame 411 upper surfaces and setting up the butt joint board 4152 at U-shaped butt joint handle 4151 inboard, the side surface mounting of butt joint board 4152 has rotation regulator 4153, the surface of rotation regulator 4153 is provided with and links up double rod 4154, the butt joint handle 4155 is installed to one end of linking double rod 4154, the center of linking double rod 4154 is provided with pressure-bearing rod 4156, drive round knife 4157 is installed to the inboard of butt joint handle 4155, the surface cover of pressure-bearing rod 4156 is equipped with connection plane cover piece 41561, the upper surface mounting of connection plane cover piece 41561 has connection threaded rod 41562, the surface cup joints connection threaded rod 41563, connection nut 563 is provided with two sets of, the surface reservation elongated slot 41521 of butt joint board 4152, connection elongated slot 41414135 and connection nut 563 are connected with two sets of upper and lower connection nut 4152.

Specifically, according to the actual processing requirement on the gypsum board, the driving swivel mount 37 is started, so that the whole splitting mechanism 4 swings by taking the driving swivel mount 37 as an axle center, the other end of the whole splitting mechanism 4 is limited by sliding connection of the connecting guide block 44 and the arc chute 39, the trend of the driving circular knife 4157 is adjusted, and then the rotation angle of the driving swivel mount 37 is controlled to correspondingly adjust the beveling angle of the driving circular knife 4157, so that the multifunction of the gypsum board cutting by the device is improved.

In order to better solve the technical problems that the number of the gypsum boards required in some scenes is limited, the actual processing requirements on the gypsum boards are complex, but the existing splitting device is inconvenient to carry, is arranged at a place outside the working scene, further consumes a large amount of time for information transmission and workpiece transfer, and has lower working efficiency, as shown in fig. 8-11, the following preferable technical scheme is provided:

the traction combined pull rod 21 comprises a force application pull rod 211 and third movable shaft rods 212 arranged at two ends of the force application pull rod 211, wherein the third movable shaft rods 212 are provided with two groups, one end of the force application pull rod 211 is provided with a connecting column block 213 through one group of the third movable shaft rods 212, the connecting column block 213 is connected with a positioning sleeve shaft 36, the other end of the force application pull rod 211 is provided with a force application swing rod 214 through the other group of the third movable shaft rods 212, one side of one end of the force application swing rod 214 is provided with a joint side disc 215, the side surface of the joint side disc 215 is provided with a connecting tooth surface 217, the center of the joint side disc 215 is provided with a connecting shaft rod 216, the joint side disc 215 is connected with the side surface of the positioning box frame 1 through the connecting shaft rod 216, the manual adjusting piece 22 comprises a U-shaped profile frame 221 arranged on the side surface of the positioning box frame 1 and a separation block 222 arranged at the inner middle end of the U-shaped profile frame 221, one side of the separation block 222 is provided with a cover plate box 223, the other side of the separation block 222 is provided with an installation opening groove 224, one side of the cover plate box 223 is provided with a manual rotary plate 225, the side end of the surface of the manual rotary plate 225 is provided with a handle 226, the inner side of the U-shaped profile frame 221 is provided with an inner rotary rod 227, the surface of the inner rotary rod 227 is provided with a connecting screw 228, the connecting screw 228 is arranged on the inner side of the installation opening groove 224, the connecting screw 228 is in meshed connection with a connecting tooth surface 217, the center of the manual rotary plate 225 is provided with a connecting inserting column 2251, the inside of the cover plate box 223 is provided with a first umbrella tooth 2252, the connecting inserting column 2251 penetrates through the cover plate box 223 and is connected with the center of the first umbrella tooth 2252, the surface of the inner rotary rod 227 is provided with a second umbrella tooth 229, the second umbrella tooth 229 is arranged on the inner side of the cover plate box 223, and the first umbrella tooth 2252 is in meshed connection with the second umbrella tooth 229.

Specifically, after the cutting operation of the device is completed, the operator can manually shake the hand-operated rotary table 225 to enable the engagement plunger 2251 to drive the first bevel gear 2252 to be in a rotating state, the first bevel gear 2252 is engaged with the second bevel gear 229 to drive the inner rotary rod 227 to be in a rotating state integrally, the connection screw 228 rotates along with the connection screw 228, the engagement connection of the connection screw 228 and the connection tooth surface 217 is utilized to enable the engagement side disc 215 to be in a rotating state, the force-applying swing rod 214 is fixedly connected with the engagement side disc 215, the force-applying swing rod 214 rotates along with the rotation, the force-applying pull rod 211 is pulled back by the force-applying swing rod 214, the whole bearing pad 3 is further moved back by the adjusting roller 32 by taking the positioning sleeve shaft 36 as a stress point, and the sliding limit of the limiting clamp slide block 24 is utilized to enable the whole bearing pad 3 to be gradually and vertically folded against the positioning box frame 1, the two groups of folding combined rods 2 are respectively arranged on two sides of the positioning box frame 1, accordingly, the whole device can be stored in a largest extent, the whole device is not required to be stored, the whole storage volume is reduced, the device is convenient to transport and carry, the power source in the storage process can be directly placed in a working scene according to the working scene, the requirements of the on the cutting operation can be directly processed, the work efficiency is reduced, and the work needs are directly, and the work can be directly processed.

To further better illustrate the above examples, the present invention also provides embodiments of a precision cutting apparatus for gypsum board having a folding structure, comprising the steps of:

step one: the initial state of the cutting assembly 415 is at the extreme side of the U-shaped connecting frame 411, the gypsum board to be processed is placed on the surface of the bearing backing plate 3 along the lower end of the splitting mechanism 4, and the height of the connecting threaded rod 41562 is adjusted through two groups of connecting nuts 41563, so that the driving circular knife 4157 swings with the rotating adjusting piece 4153 as the axis to adjust the cutting angle;

step two: because the fixed connection block 4167 is fixedly connected with the side surface of the traction conveyor belt 414, the fixed connection block 4167 can keep translating under the driving action of the traction rod 4165, the traction conveyor belt 414 rolls along the long bearing sleeve plate 417 and the two sets of sleeve rotating rollers 413, the cutting assembly 415 on the upper surface of the traction conveyor belt 414 also slides unidirectionally, meanwhile, the driving circular knife 4157 is started, the driving circular knife 4157 transversely cuts the gypsum board to be processed, one-hundred eighty degrees of rotation of the adjusting rotary table 4161 is adopted, the unidirectional sliding of the whole cutting assembly 415 can be realized while the unidirectional sliding of the fixed connection block 4167 is realized, the next gypsum board workpiece can be operated at the moment, the adjusting rotary table 4161 is controlled to rotate unidirectionally for one hundred eighty degrees again, and the whole cutting assembly 415 slides reversely;

step three: according to the actual processing requirement of the gypsum board, the driving swivel mount 37 is started, so that the whole cutting mechanism 4 swings by taking the driving swivel mount 37 as an axle center, the other end of the whole cutting mechanism 4 is limited through sliding connection of the connecting guide block 44 and the arc chute 39, the trend of the driving circular knife 4157 is adjusted, and further the beveling angle of the driving circular knife 4157 is correspondingly adjusted by controlling the rotating angle of the driving swivel mount 37;

step four: when the cutting operation of the device is completed, a worker can manually shake the manual rotary table 225 to enable the engagement plunger 2251 to drive the first umbrella tooth 2252 to be in a rotating state, the inner rotating rod 227 is integrally in a rotating state, the connection screw rod 228 rotates along with the inner rotating rod, the engagement side disc 215 is in a rotating state, the force application swing rod 214 is fixedly connected with the engagement side disc 215, the force application swing rod 214 rotates along with the force application swing rod, and the force application pull rod 211 is pulled back by the force application swing rod 214;

step five: the whole bearing backing plate 3 moves backwards by taking the positioning sleeve shaft 36 as a stress point through the adjusting roller 32, the whole bearing backing plate 3 is gradually and vertically folded to lean against the positioning box frame 1, and the two groups of folding combined rods 2 are respectively arranged at two sides of the positioning box frame 1, so that all implementation steps are completed.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (10)

1. A accurate segmentation device for gypsum board has folding structure, including location box frame (1) and set up bearing backing plate (3) in location box frame (1) one side, the upper surface of bearing backing plate (3) is provided with segmentation mechanism (4), its characterized in that: the two sides of the positioning box frame (1) are provided with folding combined rods (2), the positioning box frame (1) is connected with a bearing base plate (3) through the folding combined rods (2), the folding combined rods (2) comprise traction combined pull rods (21) connected with the surfaces of the two sides of the positioning box frame (1) and manual adjusting pieces (22) arranged at the upper ends of the traction combined pull rods (21), one side of each manual adjusting piece (22) is provided with a connecting handle rod (23), one end of each connecting handle rod (23) is connected with the two side ends of the side elevation of the positioning box frame (1), the other end of each connecting handle rod (23) is provided with a limiting clamp sliding block (24), each connecting handle rod (23) is connected with the bearing base plate (3) through the limiting clamp sliding block (24), each bearing base plate (3) comprises a base plate body (31) and adjusting rollers (32) arranged at one end of the base plate body (31), the two groups of adjusting rollers (32) are arranged at two corners of the base plate bodies (31), the tail ends of the upper surfaces of the manual adjusting pieces (22) are provided with limiting stop bars (23), the two ends of the base plates (33) are provided with limiting sliding grooves (35) respectively arranged on the two sides of the base plates (33), the connecting handle rod (23) is connected with the adjusting chute (35) through the limiting clamp sliding block (24), one side end of the upper surface of the base plate body (31) is provided with a driving swivel mount (37), the other side end of the upper surface of the base plate body (31) is provided with an arc-shaped bearing plate (38), and the surface of the arc-shaped bearing plate (38) is provided with an arc-shaped chute (39);

the cutting mechanism (4) is arranged between the driving swivel mount (37) and the arc-shaped receiving plate (38), the cutting mechanism (4) comprises a cutting combined frame (41) and a first side handle rod (42) arranged at one end of the cutting combined frame (41), a second side handle rod (43) is arranged at the other end of the cutting combined frame (41), a connecting guide block (44) is arranged at one end of the first side handle rod (42), a sliding open groove (45) is formed between one end of the second side handle rod (43) and the cutting combined frame (41), the other end of the second side handle rod (43) is connected with the driving swivel mount (37), the cutting combined frame (41) comprises a U-shaped connecting frame (411) and connecting round handle blocks (412) arranged at two ends of the U-shaped connecting frame (411), wherein two groups of U-shaped connecting frames (411) are arranged, a sleeve joint rotating roller (413) is arranged between the two groups of connecting round handle blocks (412), two groups of sleeve joint rotating rollers (413) are arranged, a long plate (417) of a bearing sleeve is arranged between the two groups of U-shaped connecting frames (411), a traction conveyor belt (414) is sleeved on the outer surfaces of the long plate (417) of the bearing sleeve and the two groups of sleeve joint rotating rollers (413), a cutting assembly (415) is arranged on the upper surfaces of the two groups of U-shaped connecting frames (411), a reciprocating sliding assembly (416) is arranged on the inner side of the traction conveyor belt (414), a driving rotating shaft (418) is arranged in the center of the lower surface of the long support sleeve plate (417);

the cutting assembly (415) comprises U-shaped butt joint handle rods (4151) arranged on the upper surfaces of two groups of U-shaped connecting frames (411) and butt joint plates (4152) arranged on the inner sides of the U-shaped butt joint handle rods (4151), rotary adjusting members (4153) are arranged on the side surfaces of the butt joint plates (4152), connecting double rods (4154) are arranged on the surfaces of the rotary adjusting members (4153), butt joint handle discs (4155) are arranged at one ends of the connecting double rods (4154), pressure-bearing rods (4156) are arranged in the centers of the connecting double rods (4154), driving circular knives (4157) are arranged on the inner sides of the butt joint handle discs (4155), connecting plane sleeve blocks (41561) are sleeved on the surfaces of the pressure-bearing rods (4156), connecting threaded rods (41562) are arranged on the upper surfaces of the connecting plane sleeve blocks (41561), connecting nuts (41563) are sleeved on the surfaces of the connecting threaded rods (41562), two groups of the connecting threaded rods (41563) are arranged on the surfaces of the connecting threaded rods (4152), reserved long grooves (41521) are formed in the surfaces of the connecting double rods (4152), and the connecting double rods (41521) are connected with the surfaces of the connecting double rods (4152).

2. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 1, wherein: the reciprocating sliding assembly (416) comprises an adjusting rotary table (4161) and a butt joint rotary rod (4162) arranged on the side surface of the adjusting rotary table (4161), one end of a driving rotary shaft (418) is connected with the center of the adjusting rotary table (4161), a first rotary table (4163) is installed at one end of the butt joint rotary rod (4162), and a second rotary table (4164) is arranged on the lower surface of the first rotary table (4163).

3. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 2, wherein: the center of first adapter plate (4163) and second adapter plate (4164) is installed first movable axostylus axostyle (4168), and the side surface of second adapter plate (4164) is provided with pull rod (4165), and third adapter plate (4166) is installed to one end of pull rod (4165), and the lower extreme of third adapter plate (4166) is provided with fixed block (4167), and second movable axostylus axostyle (4169) is installed at the center of third adapter plate (4166), and third adapter plate (4166) is connected with the upper surface of fixed block (4167) through second movable axostylus axostyle (4169), and fixed block (4167) is connected with the medial surface of traction conveyor belt (414).

4. A precision cutting apparatus for gypsum board having a folding structure as set forth in claim 3, wherein: the traction combined pull rod (21) comprises a force application pull rod (211) and third movable shaft rods (212) arranged at two ends of the force application pull rod (211), the third movable shaft rods (212) are provided with two groups, one end of the force application pull rod (211) is provided with a connecting column block (213) through one group of the third movable shaft rods (212), the connecting column block (213) is connected with a positioning sleeve shaft (36), and the other end of the force application pull rod (211) is provided with a force application swing rod (214) through the other group of the third movable shaft rods (212).

5. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 4, wherein: one side of one end of the force application swing rod (214) is provided with a connecting side disc (215), the side surface of the connecting side disc (215) is provided with a connecting tooth surface (217), the center of the connecting side disc (215) is provided with a connecting shaft lever (216), and the connecting side disc (215) is connected with the side surface of the positioning box frame (1) through the connecting shaft lever (216).

6. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 5, wherein: the manual adjusting piece (22) comprises a U-shaped profile frame (221) arranged on the side surface of the positioning box frame (1) and a separation block (222) arranged at the middle end of the inner side of the U-shaped profile frame (221), one side of the separation block (222) is provided with a cover plate box (223), and the other side of the separation block (222) is provided with an installation open groove (224).

7. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 6, wherein: a manual rotary table (225) is arranged on one side of the cover plate box (223), and a handle (226) is arranged at the side end of the surface of the manual rotary table (225).

8. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 7, wherein: an inner rotating rod (227) is arranged on the inner side of the U-shaped profile frame (221), a connecting screw rod (228) is mounted on the surface of the inner rotating rod (227), the connecting screw rod (228) is arranged on the inner side of the installation open groove (224), and the connecting screw rod (228) is in meshed connection with the connecting tooth surface (217).

9. The precision cutting apparatus having a folding structure for gypsum board as set forth in claim 8, wherein: the connection plunger (2251) is installed at the center of manual carousel (225), and the inside of cover plate box (223) is provided with first umbrella tooth (2252), and the center of connection plunger (2251) and first umbrella tooth (2252) is connected through cover plate box (223), and the surface mounting of interior rotation pole (227) has second umbrella tooth (229), and second umbrella tooth (229) set up the inboard at cover plate box (223), and first umbrella tooth (2252) are connected with second umbrella tooth (229) meshing.

10. An embodiment of a precision cutting device with a folded structure for plasterboards as claimed in claim 9, characterized in that: the method comprises the following steps:

s1: the initial state of the cutting assembly (415) is positioned at the extreme side of the U-shaped connecting frame (411), a gypsum board to be processed is placed on the surface of the bearing backing plate (3) along the lower end of the cutting mechanism (4), and the height of the connecting threaded rod (41562) is adjusted through two groups of connecting nuts (41563), so that the driving circular knife (4157) swings with the rotating adjusting piece (4153) as the axis to adjust the cutting angle;

s2: because the fixed connection block (4167) is fixedly connected with the side surface of the traction conveyor belt (414), the fixed connection block (4167) can keep translating under the driving action of the traction rod (4165), the traction conveyor belt (414) rolls along the bearing sleeve long plate (417) and the two groups of sleeve rotating rollers (413), the cutting assembly (415) on the upper surface of the traction conveyor belt (414) also slides unidirectionally, meanwhile, the driving circular knife (4157) is started, the driving circular knife (4157) carries out transverse cutting on gypsum board to be processed, one hundred and eighty degrees of rotation of the rotating disc (4161) is regulated, the unidirectional sliding of the whole cutting assembly (415) can be realized while the unidirectional sliding of the fixed connection block (4167) is realized, the next gypsum board workpiece can be operated at the moment, the regulating rotating disc (4161) is controlled to rotate unidirectionally for one hundred and eighty degrees again, and the whole cutting assembly (415) slides reversely;

s3: according to the actual processing requirement of the gypsum board, a driving swivel mount (37) is started, the whole cutting mechanism (4) swings with the driving swivel mount (37) as an axle center, the other end of the whole cutting mechanism (4) is limited through sliding connection of a connecting guide block (44) and an arc chute (39), the trend of a driving circular knife (4157) is adjusted, and further the inclined cutting angle of the driving circular knife (4157) is correspondingly adjusted by controlling the rotating angle of the driving swivel mount (37);

s4: when the cutting work of the device is finished, a worker can manually shake the manual rotary table (225) to enable the engagement plunger (2251) to drive the first umbrella tooth (2252) to be in a rotating state, the inner rotating rod (227) is integrally in a rotating state, the connecting screw rod (228) rotates along with the inner rotating rod, the engagement side disc (215) is in a rotating state, the force application swinging rod (214) is fixedly connected with the engagement side disc (215), the force application swinging rod (214) rotates along with the force application swinging rod, and the force application pull rod (211) is pulled back by the force application swinging rod (214);

s5: the whole bearing backing plate (3) moves backwards by taking the positioning sleeve shaft (36) as a stress point through the adjusting roller (32), the whole bearing backing plate (3) is gradually and vertically folded to lean against the positioning box frame (1), and the two groups of folding combined rods (2) are respectively arranged at two sides of the positioning box frame (1), so that all implementation steps are completed.